CN116592950B - Electrical component design sample system based on intelligent model - Google Patents

Abstract

The invention relates to the technical field of control and regulation systems, in particular to an electrical element design sample system based on an intelligent model, which comprises the following components: the control terminal is a main control terminal of the system and is used for providing user operation authority to control the system module to execute control commands; the camera module is used for collecting image data of the electrical element sample target; the invention can set the detection items for the electrical element sample targets according to the parameters of the electrical element through the operation of the modules in the system, store the detection items set by the detection items, and analyze the parameters of the current electrical element sample targets through the system when the subsequent electrical element sample targets need to be detected, so that the detection of the electrical element sample targets of different detection items can be configured by the analysis results.

Description

Electrical component design sample system based on intelligent model

Technical Field

The invention relates to the technical field of control and regulation systems, in particular to an electrical element design sample system based on an intelligent model.

Background

The electric element refers to various machine tool control circuits and basic component elements of an electric dragging and automatic control system, the reliability and the economy of the electric element control circuits and the electric dragging and automatic control system are directly affected, the production process of the electric element is gradually and intelligently covered by the current development of technology, so that the yield of the electric element is rapidly increased, the economic development is further driven, and the generated economic benefit and the research and development production of the electric element show complementary rising trend.

However, because of popularization and coverage of intelligent electrical component production equipment, when the intelligent production equipment is in operation, if faults occur, produced electrical component defective products are often in a large batch, so people input a certain amount of expenditure of labor force and economic cost to the intelligent production equipment for maintenance of the intelligent production equipment, but at present, electrical component defective products caused by faults of some intelligent production equipment which are not found can only be detected manually by means of mechanical equipment at present, and intelligent modularized sample detection in a true sense is not realized.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides an electrical element design sample system based on an intelligent model, which solves the technical problems in the background art.

The technical scheme is that the invention is realized by the following technical scheme:

an electrical component design sample system based on an intelligent model, comprising:

the control terminal is a main control terminal of the system and is used for providing user operation authority to control the system module to execute control commands;

the camera module is used for collecting image data of the electrical element sample target;

the design module is used for acquiring parameter data of the electrical component sample targets except the specification parameters and designing performance test items of the electrical component sample targets by referring to the parameter data;

the transmission module is used for receiving the electrical component sample target, and transmitting the electrical component sample target to the camera module station;

the identification module is used for controlling the camera module to operate so as to acquire image data of the electrical component sample target currently transmitted to the station by the transmission module;

the matching unit is used for receiving the image data of the electrical component sample target obtained by the operation of the identification module, converting the specification parameter data of the image data, and completing the configuration of the test item by referring to the specification parameter data corresponding to the image data;

the monitoring module is used for monitoring state data of the electrical element sample target in the process of carrying out the test item after the test item is configured;

and the feedback module is used for acquiring the state data of the electrical component sample target in the test item, the electrical component sample target parameter data and the test item content, which are obtained by the operation monitoring of the monitoring module, and sending the packaged state data, the packaged electrical component sample target parameter data and the test item content to the control terminal.

Still further, camera module lower level is provided with the submodule piece, includes:

the loading unit is used for providing parameters of the electrical element sample targets manually input by a user of the user data transmission channel;

the acquisition unit is used for acquiring target parameter characteristics of the electrical component sample input in the loading unit;

the storage unit is used for storing parameter characteristics of the electrical element sample targets;

wherein, the target parameter data sources of the electrical component sample input by the user through the loading unit comprise image data or specification parameter data; when the storage unit stores the parameter characteristics of the electrical component sample targets, the storage unit refers to the parameter characteristics of the electrical component sample targets to conduct regional storage.

Further, when the acquisition unit operates to acquire the parameter characteristics of the electrical component sample targets, analyzing the electrical component sample target parameter data sources, sending the electrical component sample target parameter data which is the image data to the camera module, and converting the image data into the specification parameter data through the camera module;

the electrical component sample target parameter data further comprises: the method comprises the following steps of electric appliance element sample target application, electric appliance element sample target application scene and electric appliance element sample target various power values.

Still further, the design module is provided with a sub-module at a lower stage, including:

the critical value analysis unit is used for analyzing parameter data critical values except the specification parameters of the electrical element sample targets;

the setting unit is used for setting basic performance test items of the electrical element sample targets; the method comprises the steps of acquiring operation results of a critical value analysis unit, and setting target extreme test items of an electrical element sample and process steps and extreme weights of the extreme test items according to the operation results;

the configuration unit is used for acquiring the parameter characteristics of the electrical component sample targets stored in the storage unit and referring to the parameter characteristics of the electrical component sample targets to perform configuration of the basic performance test item and the extreme test item;

when the basic performance test items are configured by the configuration unit, the system defaults to fully select the basic performance test items, or the user side selects the basic performance test items in the setting unit through the control terminal and then sends the basic performance test items to the configuration unit.

Furthermore, the monitoring module consists of an electronic thermometer, an electrometer, a camera in the camera module and a frequency harmonic analyzer.

Still further, the monitoring module is provided with a sub-module at a lower level, including:

the braking unit is used for controlling the test item currently operated by the electrical element sample target to stop operation;

before the monitoring module forms the equipment to be used, the user side sets the early warning threshold value of each equipment, the monitoring module forms the equipment to be used to run in real time to collect the state data of the electrical element sample target in the test project running process, and the trigger braking unit is enabled to run when the state data reaches the set early warning threshold value setting range.

Further, the data packet content fed back by the feedback module to the control terminal in the running state of the brake unit includes: the method comprises the following steps of collecting state data of an electrical element sample target before a brake unit in a test item is triggered, collecting parameter data of the electrical element sample target, testing item content and a current testing item process step of stopping the test item when the brake unit in the test item is triggered.

Further, after the feedback module feeds back the data packet to the control terminal, whether the electrical component sample target is damaged is determined according to the data content in the data packet, and the electrical component sample target life consumption rate is calculated by referring to the data content in the data packet corresponding to the damaged electrical component sample target, wherein the formula is as follows:

the method comprises the steps of carrying out a first treatment on the surface of the Wherein: />Real-time consumption rate for the target life of the electrical component sample;

n is the number of target life information values of the electrical element samples;

h is window width or bandwidth;

k is a kernel function;

and x is a target life information value of the electrical element sample.

Still further, the control terminal is electrically connected with a camera module through a medium, the lower stage of the camera module is electrically connected with a loading unit, an acquisition unit and a storage unit through the medium, the camera module is electrically connected with a design module through the medium, the lower stage of the design module is electrically connected with a critical value analysis unit, a setting unit and a configuration unit through the medium, the critical value analysis unit is electrically connected with the setting unit through the medium, the design module is electrically connected with a transmission module and an identification module through the medium, the inside of the identification module is electrically connected with a matching unit through the medium, the identification module is electrically connected with a monitoring module and a feedback module through the medium, the lower stage of the monitoring module is electrically connected with a braking unit through the medium, and the braking unit is electrically connected with the feedback module through the medium.

Advantageous effects

Compared with the known public technology, the technical scheme provided by the invention has the following beneficial effects:

1. the invention provides an intelligent model-based electrical component design sample system, wherein detection items for electrical component sample targets can be set according to various parameters of electrical components through module operation in the system, and the detection items set in various ways are stored, so that when the subsequent electrical component sample targets need to be detected, parameters of the current electrical component sample targets can be analyzed through the system, and thus, the electrical component sample targets with different detection items can be configured for detection by means of analysis results, the operation and the use of the system tend to be modularized, and the system can adapt to detection and test of all electrical component sample targets within a certain data support range.

2. In the running process of the system, the invention can monitor the electrical component sample target in the checking process in real time, further adopts a mode of setting the early warning threshold value, and can judge whether the electrical component sample target in the checking process is damaged in real time, thereby collecting and feeding back checking data in time after judging damage, and further achieving the aim of improving the checking efficiency and accuracy of the electrical component sample target.

3. According to the invention, a continuous inspection mode can be provided for the electrical component sample targets through the arrangement of the modules in the system, the automatic operation of the modules not only reduces the manual participation ratio required by the inspection process, but also reduces the specification parameter limit of the electrical component sample targets to the minimum, and in addition, the parameter characteristics of the electrical component sample targets stored in the storage unit in the system can be modified or supplemented in an isomorphic manner, so that the application range of the system is wider, the elimination rate of the system in the long-time span use process is reduced, and longer service of the system and detection of the electrical component sample targets are ensured.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a schematic diagram of a design sample system for electrical components based on an intelligent model;

FIG. 2 is a schematic diagram of the level and stability of the target life initial state information of the electrical component sample according to the present invention;

reference numerals in the drawings represent respectively: 1. a control terminal; 2. a camera module; 21. a loading unit; 22. an acquisition unit; 23. a storage unit; 3. designing a module; 31. a critical value analysis unit; 32. a setting unit; 33. a configuration unit; 4. a transmission module; 5. an identification module; 51. a matching unit; 6. a monitoring module; 61. a braking unit; 7. and a feedback module.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to examples.

Example 1

An electrical component design sample system based on an intelligent model of this embodiment, as shown in fig. 1, includes:

the control terminal 1 is a main control end of the system and is used for providing user operation authority to control the system module to execute control commands;

the camera module 2 is used for collecting image data of a sample target of the electrical element;

the design module 3 is used for acquiring parameter data of the electrical component sample targets except the specification parameters and designing performance test items of the electrical component sample targets by referring to the parameter data;

the transmission module 4 is used for receiving the electrical component sample target, and transmitting the electrical component sample target to the station of the camera module 2;

the identification module 5 is used for controlling the camera module 2 to operate so as to acquire the image data of the electrical component sample target currently transmitted to the station by the transmission module 4;

the matching unit 51 is configured to receive the image data of the electrical component sample target obtained by the operation of the identification module 5, convert the specification parameter data of the image data, and complete the configuration of the test item by referring to the specification parameter data corresponding to the image data;

the monitoring module 6 is used for monitoring state data of the electrical element sample target in the process of carrying out the test project after the test project is configured;

the feedback module 7 is used for acquiring the state data of the electrical component sample target in the test item, which are obtained by the operation and monitoring of the monitoring module 6, the electrical component sample target parameter data and the test item content, and sending the packaged data to the control terminal 1.

In this embodiment, the control terminal 1 controls the camera module 2 to operate and collect image data of the electrical component sample target, the synchronous design module 3 obtains parameter data except for specification parameters of the electrical component sample target, the reference parameter data is used for designing the performance test item of the electrical component sample target, the transmission module 4 immediately operates and starts to receive the electrical component sample target, the electrical component sample target is transmitted to the station of the camera module 2, the identification module 5 controls the camera module 2 to operate and obtain the image data of the electrical component sample target currently transmitted to the station thereof by the transmission module 4, the matching unit 51 receives the image data of the electrical component sample target obtained by the operation of the identification module 5, after the specification parameter data of the image data is converted, the reference image data corresponds to the specification parameter data to complete the configuration of the test item, so that the monitoring module 6 monitors the state data of the electrical component sample target in the test item in real time after the configuration of the test item, and finally obtains the state data of the electrical component sample target in the test item obtained by the operation of the monitoring module 6, the electrical component sample target parameter data and the test item content after the packaging, and the test item content are sent to the control terminal 1.

Example 2

On the aspect of implementation, on the basis of embodiment 1, this embodiment further specifically describes an electrical component design sample system based on an intelligent model in embodiment 1 with reference to fig. 1:

the camera module 2 is provided with the submodule in the lower level, includes:

a loading unit 21 for providing a user data transmission channel for a user to manually input parameters of the electrical component sample targets;

the acquisition unit 22 is used for acquiring target parameter characteristics of the electrical component sample input in the loading unit 21;

a storage unit 23 for storing parameter characteristics of the electrical component sample targets;

wherein, the target parameter data sources of the electrical component sample input by the user through the loading unit 21 comprise image data or specification parameter data; the storage unit 23 performs the zoning storage with reference to the parameter characteristics of the electrical component sample target when storing the electrical component sample target parameter characteristics.

The collected target parameter characteristics of the electronic device sample are stored through the operation of the submodules in the camera module 2, so that data support is provided for the operation of the lower modules in the system, and meanwhile, conditions are provided for the data update in the system, so that the data in the storage unit 23 can be better operated and changed by a user, and the applicability of the system is improved.

As shown in fig. 1, when the collection unit 22 is operated to collect parameter characteristics of an electrical component sample target, the electrical component sample target parameter data source is analyzed, the electrical component sample target parameter data which is derived as image data is sent to the camera module 2, and the image data is converted into specification parameter data through the camera module 2;

the electrical component sample target parameter data further comprises: the method comprises the following steps of electric appliance element sample target application, electric appliance element sample target application scene and electric appliance element sample target various power values.

Example 3

On the aspect of implementation, on the basis of embodiment 1, this embodiment further specifically describes an electrical component design sample system based on an intelligent model in embodiment 1 with reference to fig. 1:

the design module 3 is provided with the submodule in the lower level, includes:

a critical value analysis unit 31 for analyzing parameter data critical values of the electrical component sample targets other than the specification parameters;

a setting unit 32 for setting a basic performance test item of an electrical component sample target; process steps and extreme weights for acquiring the operation result of the critical value analysis unit 31 and setting the target extreme test items and the extreme test items of the electrical component samples with reference to the operation result content;

a configuration unit 33, configured to acquire the parameter characteristics of the electrical component sample target stored in the storage unit 23, and perform configuration of the basic performance test item and the extreme test item with reference to the parameter characteristics of the electrical component sample target;

when the basic performance test items are configured by the configuration unit 33, the system defaults to fully select the basic performance test items, or the user side selects the basic performance test items in the setting unit 32 by the control terminal 1 and sends the basic performance test items to the configuration unit 33.

The arrangement of the submodule in the design module 3 further provides accurate comparison data reference for the inspection and judgment of the electronic element sample targets in the system operation, and ensures that the system can accurately judge the electronic element sample targets in the inspection and detection process.

As shown in fig. 1, the monitoring module 6 is composed of an electronic thermometer, an electrometer, a camera in the camera module 2 and a frequency harmonic analyzer.

As shown in fig. 1, the monitoring module 6 is provided with a sub-module at a lower stage, including:

a brake unit 61 for controlling a test item currently operated by the electrical component sample target to stop operation;

before the monitoring module 6 is configured to operate the used equipment, the user end sets an early warning threshold value for each equipment, the monitoring module 6 is configured to operate the used equipment in real time to collect state data of a sample target of the electrical element in the test project operation process, and the trigger brake unit 61 is operated when the state data reaches the set early warning threshold value setting range.

The efficiency of detecting the electrical component sample targets by the system operation is improved by the arrangement of the brake unit 61.

As shown in fig. 1, the content of the data packet fed back by the feedback module 7 to the control terminal 1 in the operation state of the brake unit 61 includes: the method comprises the following steps of state data collected by an electrical component sample target before a brake unit 61 in a test item triggers, electrical component sample target parameter data, test item content and a current test item process step of stopping when the brake unit 61 in the test item triggers the state.

Example 4

On the aspect of implementation, on the basis of embodiment 1, this embodiment further specifically describes an electrical component design sample system based on an intelligent model in embodiment 1 with reference to fig. 1:

after the feedback module 7 feeds back the data packet to the control terminal 1, whether the electrical component sample target is damaged is judged according to the data content in the data packet, and the electrical component sample target life consumption rate is calculated by referring to the data content in the data packet corresponding to the damaged electrical component sample target, wherein the formula is as follows:

the method comprises the steps of carrying out a first treatment on the surface of the Wherein: />Real-time consumption rate for the target life of the electrical component sample;

n is the number of target life information values of the electrical element samples;

h is window width or bandwidth;

k is a kernel function;

and x is a target life information value of the electrical element sample.

As shown in fig. 1, the control terminal 1 is electrically connected with a camera module 2 through a medium, the lower stage of the camera module 2 is electrically connected with a loading unit 21, an acquisition unit 22 and a storage unit 23 through the medium, the camera module 2 is electrically connected with a design module 3 through the medium, the lower stage of the design module 3 is electrically connected with a critical value analysis unit 31, a setting unit 32 and a configuration unit 33 through the medium, the critical value analysis unit 31 is electrically connected with the setting unit 32 through the medium with the configuration unit 33, the design module 3 is electrically connected with a transmission module 4 and a recognition module 5 through the medium, the inside of the recognition module 5 is electrically connected with a matching unit 51 through the medium, the recognition module 5 is electrically connected with a monitoring module 6 and a feedback module 7 through the medium, the lower stage of the monitoring module 6 is electrically connected with a braking unit 61 through the medium, and the braking unit 61 is electrically connected with the feedback module 7 through the medium.

In summary, by the operation of the module in the system of the embodiment, the detection items for the electrical component sample targets can be set according to each parameter of the electrical component, and each set detection item is stored, when the subsequent electrical component sample targets need to be detected, the parameters of the current electrical component sample targets can be analyzed by the system, so that the electrical component sample targets with different detection items are configured for detection by means of analysis results, the operation and the use of the system tend to be modularized, and the system can adapt to the detection test of all the electrical component sample targets within a certain data support range; meanwhile, in the running process of the system, the electric appliance element sample target in the checking process can be monitored in real time, whether the electric appliance element sample target in the checking process is damaged or not can be judged in real time by further adopting a mode of setting an early warning threshold value, so that after the damage is judged, checking data can be collected and fed back timely, and the aim of improving the checking efficiency and accuracy of the electric appliance element sample target is fulfilled;

in addition, the arrangement of the modules in the system can provide a continuous inspection mode for the electrical component sample targets, the automatic operation of the modules not only reduces the manual participation ratio required by the inspection process, but also reduces the specification parameter limit of the electrical component sample targets to the minimum, and in addition, the parameter characteristics of the electrical component sample targets stored in the storage unit in the system can be modified or supplemented in an isomorphic manner, so that the application range of the system is wider, the elimination rate of the system in the long-time span use process is reduced, and longer service of the system and detection of the electrical component sample targets are ensured.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (7)

1. An electrical component design sample system based on an intelligent model, comprising:

the control terminal (1) is a main control end of the system and is used for providing user operation authority to control the system module to execute control commands;

the camera module (2) is used for collecting image data of a sample target of the electrical element;

the design module (3) is used for acquiring parameter data of the electrical component sample targets except the specification parameters and designing electrical component sample target performance test items by referring to the parameter data;

the design module (3) is provided with a sub-module at the lower stage, and comprises:

a critical value analysis unit (31) for analyzing parameter data critical values of the electrical component sample targets except for the specification parameters;

a setting unit (32) for setting a basic performance test item of an electrical component sample target; the method comprises the steps of acquiring an operation result of a critical value analysis unit (31), and setting a target extreme test item of an electrical element sample and a process step and an extreme weight of the extreme test item according to the operation result content;

the configuration unit (33) is used for acquiring the parameter characteristics of the electrical component sample targets stored in the storage unit (23), and referring to the parameter characteristics of the electrical component sample targets to perform configuration of the basic performance test item and the extreme test item;

when the basic performance test items are configured through the configuration unit (33), the system defaults to fully select the basic performance test items, or the user side selects the basic performance test items in the setting unit (32) through the control terminal (1) and then sends the basic performance test items to the configuration unit (33);

the transmission module (4) is used for receiving the electrical component sample target, and transmitting the electrical component sample target to the station of the camera module (2);

the identification module (5) is used for controlling the camera module (2) to operate so as to acquire the image data of the electrical component sample target currently transmitted to the station by the transmission module (4);

the matching unit (51) is used for receiving the image data of the electrical component sample target obtained by the operation of the identification module (5), converting the specification parameter data of the image data, and completing the configuration of the test item by referring to the specification parameter data corresponding to the image data;

the monitoring module (6) is used for monitoring state data of the electrical element sample target in the process of carrying out the test item after the test item is configured;

the feedback module (7) is used for acquiring state data of the electrical component sample targets in the test items, which are obtained by the operation and monitoring of the monitoring module (6), the electrical component sample target parameter data and the test item content, packaging the data and sending the data and the content to the control terminal (1);

after the data packet is fed back to the control terminal (1), the feedback module (7) judges whether the electrical component sample target is damaged according to the data content in the data packet, and calculates the life consumption rate of the electrical component sample by referring to the data content in the data packet corresponding to the damaged electrical component sample target, wherein the formula is as follows:

the method comprises the steps of carrying out a first treatment on the surface of the Wherein: />Real-time consumption rate for the target life of the electrical component sample;

n is the number of target life information values of the electrical element samples;

h is window width or bandwidth;

k is a kernel function;

and x is a target life information value of the electrical element sample.

2. The smart model-based electrical component design sample system of claim 1, wherein the camera module (2) is provided with a sub-module at a lower level, comprising:

a loading unit (21) for providing a user data transmission channel for a user to manually input parameters of the electrical component sample targets;

the acquisition unit (22) is used for acquiring target parameter characteristics of the electrical component sample input in the loading unit (21);

a storage unit (23) for storing the parameter characteristics of the electrical component sample targets;

wherein, the target parameter data sources of the electrical component sample input by the user through the loading unit (21) comprise image data or specification parameter data; the storage unit (23) performs zoned storage with reference to the parameter characteristics of the electrical component sample targets when storing the electrical component sample target parameter characteristics.

3. The intelligent model-based electrical component design sample system according to claim 2, wherein the acquisition unit (22) analyzes the source of electrical component sample target parameter data when performing parameter feature acquisition on an electrical component sample target, sends the electrical component sample target parameter data which is image data to the camera module (2), and converts the image data into specification parameter data through the camera module (2);

the electrical component sample target parameter data further comprises: the method comprises the following steps of electric appliance element sample target application, electric appliance element sample target application scene and electric appliance element sample target various power values.

4. The intelligent model-based electrical component design sample system of claim 1, wherein the monitoring module (6) is composed of an electronic thermometer, an electrometer, a camera in the camera module (2) and a frequency harmonic analyzer.

5. An electrical component design sample system based on intelligent model according to claim 1, characterized in that the monitoring module (6) is provided with sub-modules at the lower level, comprising:

a brake unit (61) for controlling the test item currently operated by the electrical component sample target to stop operation;

before the monitoring module (6) forms the equipment to be used, the user side sets the early warning threshold value of each equipment, the monitoring module (6) forms the state data of the sample target of the electric element to be collected in real time in the running process of the test item, and the trigger braking unit (61) is enabled to run when the state data reaches the set early warning threshold value setting range.

6. The intelligent model-based electrical component design sample system according to claim 5, wherein the data packet content fed back by the feedback module (7) to the control terminal (1) in the running state of the brake unit (61) comprises: the method comprises the following steps of state data collected by an electrical component sample target before a brake unit (61) in a test item triggers, electrical component sample target parameter data, test item content and a current test item process step of stopping when the brake unit (61) in the test item triggers the state.

7. The intelligent model-based electrical component design sample system according to claim 1, wherein the control terminal (1) is electrically connected with a camera module (2) through a medium, a loading unit (21), an acquisition unit (22) and a storage unit (23) are electrically connected with the lower stage of the camera module (2), the camera module (2) is electrically connected with a design module (3) through a medium, the lower stage of the design module (3) is electrically connected with a critical value analysis unit (31), a setting unit (32) and a configuration unit (33) through a medium, the critical value analysis unit (31) is electrically connected with the setting unit (32) through a medium, the design module (3) is electrically connected with a transmission module (4) and an identification module (5), a matching unit (51) is electrically connected with the inside of the identification module (5) through a medium, the identification module (5) is electrically connected with a monitoring module (6) and a feedback module (7) through a medium, the lower stage of the monitoring module (6) is electrically connected with a braking unit (61) through a medium, and the feedback module (61) is electrically connected with the braking module (7).